Robust design and manufacturing of ceramic laminates with controlled thermal residual stresses for enhanced toughness

被引：0

作者：

Nina Orlovskaya

Mykola Lugovy

Vladimir Subbotin

Oleksandr Radchenko

Jane Adams

Munjal Chheda

James Shih

Jag Sankar

Sergey Yarmolenko

机构：

[1] Drexel University,

[2] Institute for Problems of Materials Science,undefined

[3] Army Research Laboratory,undefined

[4] Ceradyne Inc.,undefined

[5] North Carolina A&T State University,undefined

来源：

Journal of Materials Science | 2005年 / 40卷

关键词：

Boron; Residual Stress; Fracture Toughness; Ballistic Performance; Compressive Residual Stress;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

Boron carbide-silicon carbide ceramic composites are very promising armor materials because they are intrinsically very hard. However, their fracture toughness is not very high. Their ballistic performance could be significantly increased if the brittleness of these materials could be decreased. Here we report development of boron carbide-silicon carbide layered ceramics with controlled compressive and tensile stresses in separate layers. Such B4C-SiC laminates with strong interfaces can provide high apparent fracture toughness and damage tolerance along with high protection capabilities.

引用

页码：5483 / 5490

页数：7

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